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W4385332007 abstract "Electromagnetic wideband absorption is still perceived as a critical and formidable challenge to address with an unambiguous photonic absorber. Subwavelength metamaterial (MM) unit cells with unique and controlled features have recently gained considerable interest. However, meta‐atoms, generated using a quantum‐inspired pattern distribution, are underwhelming in existing literature to design photonic absorbers and their potential application to manufacture solar sails is still quite uncommon. In this article, to create a flexible, polarization‐insensitive, ultrathin, and broadband MM absorber, quantum interference pattern‐inspired design is utilized. Herein, a novel approach to fabricating solar sails for the space exploration incorporates the proposed broadband photonic absorber rather than conventional reflectors. The quantum‐inspired meta‐absorber (QIMA) exhibits an absorption of over 91% for the visible domain, i.e., 380–800 nm under a conventional plane‐polarized source. It is shown in the study that broadband absorbers are almost equivalent to excellent reflectors to design the solar sails in terms of the time‐averaged force calculated by utilizing the Maxwell stress tensor method. Thus, the QIMA has the potential to be a viable alternative to reflectors in the design of futuristic solar sails for space exploration. The interference theory model is also utilized to assure the dependability of calculated data, and additionally, the standard AM1.5 solar spectrum is utilized to demonstrate the QIMA's solar‐harvesting potentiality." @default.
W4385332007 created "2023-07-29" @default.
W4385332007 creator A5008997914 @default.
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W4385332007 creator A5057325469 @default.
W4385332007 creator A5088561878 @default.
W4385332007 date "2023-08-17" @default.
W4385332007 modified "2023-09-27" @default.
W4385332007 title "Quantum Inspired Broadband Photonic Absorber: Potential Application as Solar Sail along with Mobility Analysis" @default.
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W4385332007 doi "https://doi.org/10.1002/adem.202300438" @default.
W4385332007 hasPublicationYear "2023" @default.
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